S8501 AMCC (Applied Micro Circuits Corp), S8501 Datasheet - Page 4

S8501

Manufacturer Part Number

S8501

Description

Hd-sdi Data Retimer

Manufacturer

AMCC (Applied Micro Circuits Corp)

Datasheet

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Figure 5. Functional Waveform

S8501 RECEIVER

Architecture/Functional Description

The S8501 receiver is designed to implement SMPTE

292M Specification receiver functions. A block dia-

gram showing the basic chip function is provided in

Figure 4.

Whenever a signal is present, the S8501 attempts to

achieve bit synchronization of the received encoded

bit stream. Received data from the incoming bit stream

is provided on the device’s parallel data outputs.

The S8501 accepts serial encoded data from a fiber

optic or coaxial cable interface. The serial input stream

is the result of the serialization of scrambled data by

a compatible transmitter. Clock recovery is performed

on-chip, with the output data presented to the trans-

mission layer as 20-bit parallel data. The chip operates

at the HD-SDI frequency of 1.485Gb/s.

Serial/Parallel Conversion

Serial data is received on the RX, RY pins. The PLL

clock recovery circuit will lock to the data stream if the

clock to be recovered is within 100 PPM of the inter-

nally generated bit rate clock. The recovered clock is

used to retime the input data stream. The data is then

clocked into the serial to parallel output registers.

Reference Clock Input

The reference clock input must be supplied with a

PECL single-ended AC coupled crystal clock source

at 100 PPM tolerance. See Table 2 for reference

clock frequency.

S8401/S8501

PARALLEL

DATA BUS

(Output)

REFCLK

(Input)

SERIAL DATA

RCLK

(Output)

PARALLEL

DATA BUS

(Input)

D0/D1

HIGH DEFINITION SERIAL DIGITAL INTERFACE (HD-SDI) CHIPSET

D2/D3

D4/D5

D6/D7

D0/D1

D8/D9 D10/D11 D12/D13 D14/D15

D2/D3

Framing

Framing is performed off-chip. Typically, an FPGA

would be used to implement descrambling and Word/

Frame synchronization as required by SMPTE 292M.

Lock Detect

The S8501 lock detect function indicates the state of

the phase-locked loop (PLL) clock recovery unit. The

PLL will indicate lock within 2.5 s after the start of

receiving serial data inputs. If the serial data inputs

have an instantaneous phase jump (from a serial

switch, for example) the PLL will not indicate an out-

of-lock state, but will recover the correct phase

alignment within 250 bit times. If a run length of 80-

160 bits is exceeded the loop will declare loss of lock.

Input data rate variation (compared to REFCLK) can

also cause loss of lock. Table 3 shows the response

of the PLL loop circuit to input data rate variation.

When lock is lost, the PLL will attempt to re-acquire

bit synchronization, and will shift from the serial input

data to the reference clock so that the correct fre-

quency downstream clocking will be maintained.

The LOCKDETN output will go inactive (High) when

no data is present on the serial data inputs. When

LOCKDETN is in the inactive (high) state, it indicates

that the PLL is locking to the local reference clock to

maintain downstream clocking. When LOCKDETN is

in the active (low) state, it indicates that the PLL is

attempting to lock to the incoming serial data. When

serial data is restored, the LOCKDETN output will

stay in the active state.

D4/D5

D6/D7

D10

D8/D9 D10/D11 D12/D13 D14/D15

D11

December 10, 1999 / Revision C

D12

D13

D14

D15

S8501 AMCC (Applied Micro Circuits Corp), S8501 Datasheet - Page 4

S8501

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